The cap and the 3' splice site similarly affect polyadenylation efficiency.
AUTOR(ES)
Cooke, C
RESUMO
The 5' cap of a mammalian pre-mRNA has been shown to interact with splicing components at the adjacent 5' splice site for processing of the first exon and the removal of the first intron (E. Izaurralde, J. Lewis, C. McGuigan, M. Jankowska, E. Darzynkiewicz, and I.W. Mattaj, Cell 78:657-668, 1994). Likewise, it has been shown that processing of the last exon and removal of the last intron involve interaction between splicing components at the 3' splice site and the polyadenylation complex at the polyadenylation signal (M. Niwa, S. D. Rose, and S.M. Berget, Genes Dev. 4:1552-1559, 1990; M. Niwa and S. M. Berget, Genes Dev. 5:2086-2095, 1991). These findings suggest that the cap provides a function in first exon processing which is similar to the function of the 3' splice site at last exon processing. To determine whether caps and 3' splice sites function similarly, we compared the effects of the cap and the 3' splice site on the in vitro utilization of the simian virus 40 late polyadenylation signal. We show that the presence of a m7GpppG cap, but not a cap analog, can positively affect the efficiency of polyadenylation of a polyadenylation-only substrate. Cap analogs do not stimulate polyadenylation because they fail to bind titratable cap-binding factors. The failure of cap analogs to stimulate polyadenylation can be overcome if a 3' splice site is present upstream of the polyadenylation signal. These data indicate that factors interacting with the cap or the 3' splice site function similarly to affect polyadenylation signal, along with m7GpppG cap, is inhibitory to polyadenylation. This finding suggests that the interaction between the cap-binding complexes and splicing components at the 5' splice site may form a complex which is inhibitory to further processing if splicing of an adjacent intron is not achieved.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=231248Documentos Relacionados
- Sequences on the 3' side of hexanucleotide AAUAAA affect efficiency of cleavage at the polyadenylation site.
- Virus deletion mutants that affect a 3' splice site in the E3 transcription unit of adenovirus 2.
- Interaction between the Negative Regulator of Splicing Element and a 3′ Splice Site: Requirement for U1 Small Nuclear Ribonucleoprotein and the 3′ Splice Site Branch Point/Pyrimidine Tract
- Alterations in the pre-mRNA topology of the bovine growth hormone polyadenylation region decrease poly(A) site efficiency.
- Noncoding region between the env and src genes of Rous sarcoma virus influences splicing efficiency at the src gene 3' splice site.